The revolutionary new ASUS RT-N56U is the most advanced wireless router available, challenging tradition by dramatically exceeding all expectations. This stylish network enabler combines a series of cutting-edge and powerful technologies to offer you an ideal internet and wireless package, complete with striking design.

Dual-band for Lag-free Entertainment
Double your wireless performance and bandwidth with simultaneous 2.4GHz and 5GHz bands speed up to 300Mbps concurrently. While basic internet applications like browsing or file downloading can occur in 2.4GHz, wireless HD content streaming takes place in the 5GHz band at the same time, so both achieve optimized speeds and you enjoy smooth, buffer-free HD content streaming.

Gigabit Internet Surfing with Hardware NAT
Equipped with a capable hardware NAT acceleration engine and built-in Gigabit Ethernet, it gives you full Gigabit internet performance, making its WAN to LAN throughput up to 2-5 times that of traditional software-based NAT Gigabit routers.

Powerful Online Multitasking at up to 300,000 Data Sessions
Support for a massive data pipeline of up to 300,000 data sessions means the RT-N56U has around 20 times the networking capacity of other high session routers, so multiple data transfer jobs don't slow down even during heavy load.

Plug-n-surf and Hassle-free Management
ASUS EZ UI offers you an intuitive router setup without read manuals. What's more, you can enjoy simultaneous printing and scanning by connecting an All-in-one printer to the router via the USB port. Also connect external hard disks to enjoy instant file sharing with family and friends!

Ai Radar Optimized and Reliable Wireless Coverage
This unique and efficient design drastically increases wireless signal coverage and quality without increasing power consumption. It intelligently adapts beam patterns to local conditions to enable higher-gain directional signal emulation. Ai Radar shapes signals to offer the strongest possible output, transforming what may be a weak omnidirectional signal to a stronger unidirectional one, improving throughput at same time.